NVIDIA hardware decoder

Certain nvidia cards include a hardware decoder, which can greatly improve the performance of video decoding. In order to use NVDEC, a special build of ffmpeg with NVDEC support is required. The special docker architecture 'amd64nvidia' includes this support for amd64 platforms. An aarch64 for the Jetson, which also includes NVDEC may be added in the future.

Some more detailed setup instructions are also available in this issue.

Docker setup

Requirements

nVidia closed source driver required to access NVDEC. nvidia-docker required to pass NVDEC to docker.

Setting up docker-compose

In order to pass NVDEC, the docker engine must be set to nvidia and the environment variables NVIDIA_VISIBLE_DEVICES=all and NVIDIA_DRIVER_CAPABILITIES=compute,utility,video must be set.

In a docker compose file, these lines need to be set:

services:

frigate:

...

image: blakeblackshear/frigate:stable-amd64nvidia

runtime: nvidia

environment:

- NVIDIA_VISIBLE_DEVICES=all

- NVIDIA_DRIVER_CAPABILITIES=compute,utility,video

Setting up the configuration file

In your frigate config.yml, you'll need to set ffmpeg to use the hardware decoder. The decoder you choose will depend on the input video.

A list of supported codecs (you can use ffmpeg -decoders | grep cuvid in the container to get a list)

V..... h263_cuvid Nvidia CUVID H263 decoder (codec h263)

V..... h264_cuvid Nvidia CUVID H264 decoder (codec h264)

V..... hevc_cuvid Nvidia CUVID HEVC decoder (codec hevc)

V..... mjpeg_cuvid Nvidia CUVID MJPEG decoder (codec mjpeg)

V..... mpeg1_cuvid Nvidia CUVID MPEG1VIDEO decoder (codec mpeg1video)

V..... mpeg2_cuvid Nvidia CUVID MPEG2VIDEO decoder (codec mpeg2video)

V..... mpeg4_cuvid Nvidia CUVID MPEG4 decoder (codec mpeg4)

V..... vc1_cuvid Nvidia CUVID VC1 decoder (codec vc1)

V..... vp8_cuvid Nvidia CUVID VP8 decoder (codec vp8)

V..... vp9_cuvid Nvidia CUVID VP9 decoder (codec vp9)

For example, for H265 video (hevc), you'll select hevc_cuvid. Add -c:v hevc_cuvid to your ffmpeg input arguments:

ffmpeg:

input_args: ...

- -c:v

- hevc_cuvid

If everything is working correctly, you should see a significant improvement in performance. Verify that hardware decoding is working by running nvidia-smi, which should show the ffmpeg processes:

+-----------------------------------------------------------------------------+

| NVIDIA-SMI 455.38 Driver Version: 455.38 CUDA Version: 11.1 |

|-------------------------------+----------------------+----------------------+

| GPU Name Persistence-M| Bus-Id Disp.A | Volatile Uncorr. ECC |

| Fan Temp Perf Pwr:Usage/Cap| Memory-Usage | GPU-Util Compute M. |

| | | MIG M. |

|===============================+======================+======================|

| 0 GeForce GTX 166... Off | 00000000:03:00.0 Off | N/A |

| 38% 41C P2 36W / 125W | 2082MiB / 5942MiB | 5% Default |

| | | N/A |

+-------------------------------+----------------------+----------------------+

+-----------------------------------------------------------------------------+

| Processes: |

| GPU GI CI PID Type Process name GPU Memory |

| ID ID Usage |

|=============================================================================|

| 0 N/A N/A 12737 C ffmpeg 249MiB |

| 0 N/A N/A 12751 C ffmpeg 249MiB |

| 0 N/A N/A 12772 C ffmpeg 249MiB |

| 0 N/A N/A 12775 C ffmpeg 249MiB |

| 0 N/A N/A 12800 C ffmpeg 249MiB |

| 0 N/A N/A 12811 C ffmpeg 417MiB |

| 0 N/A N/A 12827 C ffmpeg 417MiB |

+-----------------------------------------------------------------------------+